Glycoprotein IIb/IIIa inhibition reduces prothrombotic events under conditions of deep hypothermic circulatory arrest

Deep Hypothermic Circulatory Arrest (DHCA) is employed during thoracic aortic and congenital heart surgery, and can induce postoperative neurological damage probably caused by microthrombembolism. Hypothermia has been reported to induce platelet activation and aggregation. The platelet activation marker P-selectin mediates binding of platelets to leukocytes. Tirofiban and eptifibatide, short-acting inhibitors of the platelet fibrinogen receptor GP IIb/IIIa, have recently been shown to protect platelet function without increasing bleeding during heart surgery using cardiopulmonary bypass. The aim of this study was to investigate the effect of tirofiban and eptifibatide on platelets and platelet-leukocyte interaction under DHCA conditions in vitro. Platelet aggregation, binding of the GP IIb/IIIa activation specific antibody PAC-1, P-selectin expression as well as monocyte and granulocyte content of aggregates were investigated in unstimulated and ADP-stimulated samples using flow cytometry. Tirofiban and eptifibatide inhibited massive platelet aggregation and PAC-1 binding which were induced by DHCA conditions. P-selectin expression was inhibited by tirofiban but increased by eptifibatide at hypothermia. Platelet-bound leukocytes were present in all samples. Eptifibatide increased granulocyte content of aggregates at hypothermia in ADP-stimulated samples. We conclude that under conditions of DHCA both tirofiban and eptifibatide inhibit platelet aggregation but have different effects on platelet P-selectin expression and platelet-leukocyte interaction. Application of a short-acting and non-activating GP IIb/IIIa inhibitor should be considered during DHCA in vivo to prevent occlusion of the microvasculature and subsequent organ damage.     

Arginyl-glycyl-aspartyl (RGD) epitope of human apolipoprotein (a) inhibits platelet aggregation by antagonizing the IIb subunit of the fibrinogen (GPIIb/IIIa) receptor

An unknown epitope of apolipoprotein (a) antagonizes fibrinogen binding to agonist-stimulated platelet's fibrinogen (GPIIb/IIIa) receptor yielding lipoprotein (a) mediated decreased platelet aggregation. The purpose of this study was to test the hypothesis that human apolipoprotein (a)'s single arginyl-glycyl-aspartyl (RGD) epitope, unique to apolipoprotein (a) in lipoprotein (a) binds to the RGD binding motif on the IIb subunit of the GPIIb/IIIa receptor thus reducing platelet-bound fibrinogen and consequently decreasing agonist-stimulated platelet aggregation. Platelets (N=30 subjects) were prepared from fresh plasma, washed three times in Tyrode's buffer and stimulated using 10 microM ADP or 2 microg/ml collagen. Lipoprotein (a) was isolated from plasma using lectin affinity chromatography followed by ultracentrifugation. The peptide RGDS inhibited (125)I-labelled lipoprotein (a) binding to autologous platelets with IC-50's of 25.1+/-2.2 (mean+/-SEM) and 15.4+/-1.3 microM for collagen- and ADP-stimulation respectively. Further, RGDS reduced platelet binding of (125)I-labelled fibrinogen IC-50's of 35.5+/-3.2 (mean+/-SEM) and 20.7+/-2.2 microM for collagen- and ADP-stimulation respectively. The monoclonal antibody PAC-1, uniquely directed at the RGD binding motif on the IIb subunit on collagen- and ADP-stimulated platelets, inhibited binding of (125)I-labelled lipoprotein (a) with IC-50's of 6.4+/-0.7 and 2.5+/-2.2 microg/10(8) platelets for collagen- and ADP-stimulation respectively. Additionally, PAC-1 reduced platelet bound of (125)I-labelled fibrinogen with IC-50's of 9.0+/-1.4 and 4.1+/-2.2 microg/10(8) platelets for collagen- and ADP-stimulation respectively. In a dose-related fashion, a polyclonal antibody, specific for the RGD epitope on apolipoprotein (a), restored platelet aggregation to control levels, inhibited (125)I-labelled lipoprotein (a) binding, and increased (125)I-labelled fibrinogen by displacing lipoprotein (a) from the GPIIb/IIIa receptor. Thus a never before demonstrated aspect of the mechanism of lipoprotein (a)'s suggested novel role as an endogenous regulator of fibrinogen binding to collagen- and ADP-stimulated platelets has been shown. In conclusion, lipoprotein (a), via apolipoprotein (a)'s RGD epitope, binds to the RGD binding motif on the IIb protein of the GPIIb/IIIa receptor consequently reducing platelet-bound fibrinogen which results in decreased platelet aggregation.     

Inhibition of Platelet-Mediated Clot Retraction by Integrin Antagonists

The effects of the platelet IIbβ3 integrin (GPIIb/IIIa) antagonists XV459 (non-peptide), c7E3 (Fab monoclonal antibody) and DMP728 (cyclic peptide) as well as the vβ3 integrin antagonists, LM609 (monoclonal antibody) and XT199 (non-peptide) on clotting and platelet-mediated clot retraction were examined. While 30 nM of XV459 had no significant effect on the kinetics of coagulation, platelet-mediated clot retraction was nearly fully inhibited at this concentration (Relative Retraction Rate = 0.09). XV459 resulted in a concentration related-response curve. Other experiments demonstrated that platelet aggregation was maximally inhibited at XV459 concentrations ranging from 30–50 nM. Similarly, c7E3 demonstrated comparable inhibitory efficacy in inhibiting either clot retraction or platelet aggregation. In contrast, DMP728, an equally potent anti-aggregatory agent with an IC₅₀ of 20–50 nM in inhibiting platelet aggregation induced by various agonists, was found to be a less potent inhibitor of platelet-mediated clot retraction with a half-maximal inhibition of clot retraction at 0.7 μM, and maximum effects at concentrations of 10 μM. The vβ3 integrin antagonists, LM609 or XT199 were without any significant effects on either platelet-mediated clot retraction or platelet aggregation. In conclusion, these data suggest a differential efficacy among different GPIIb/IIIa antagonists in inhibiting platelet-mediated clot retraction in spite of the equivalent anti-aggregatory potency. Additionally, the vβ3 integrin antagonists do not affect platelet-mediated clot retraction or aggregation. Further studies with the previously described IIbβ3 integrin antagonists as well as others revealed a distinct correlation between the Kd to resting and activated platelets and the efficacy in inhibiting platelet-mediated clot retraction.     

Interactions between thrombolytic agents and platelets: Effects of plasmin on platelet glycoproteins Ib and IIb/IIIa

The mechanisms by which thrombolytic agents affect platelet function are not yet elucidated. The aim of the present study was to investigate the effects of plasmin, generated by thrombolytic agents in plasma, on platelet glycoproteins (GP) Ib and IIb/IIIa. Platelet-rich plasma was incubated with pharmacological amounts of streptokinase, anistreplase and tissue-type plasminogen activator and the platelet surface GP's were investigated with a panel of monoclonal antibodies using flow cytometry. As assessed from the mean fluorescence intensity of incubated and control platelets, no significant changes in the binding of antibodies to GP Ib and GP IIb/IIIa were found. The functional integrity of these glycoproteins was severely impaired by treatment with the thrombolytic agents, as shown by significant inhibition of ADP- and ristocetin-induced platelet aggregation. Experiments with purified plasmin and washed platelets indicated significant degradation of GP IIb/llla and upregulation of GP Ib, which is in agreement with previous findings. In addition, platelet activation by plasmin was shown using two monoclonal antibodies to activation-specific antigens. We conclude that degradation of platelet GP's by plasmin offers no likely explanation for the defect in platelet function, which is induced by thrombolytic agents in platelet-rich plasma.     

Comparative study of antiplatelet drugs in vitro: distinct effects of cAMP-elevating drugs and GPIIb/IIIa antagonists on thrombin-induced platelet responses.

Among various categories of antiplatelet drugs, cAMP-elevating agents and GP IIb/IIIa antagonists have been reported to inhibit platelet aggregation stimulated by a wide variety of platelet agonists. To clarify the qualitative difference between these two agents, their effects on various platelet responses in washed platelets evoked by thrombin (0.05 U/mL) were compared in vitro. Two types of cAMP-elevating drugs, cilostazol (a phosphodiesterase III inhibitor) and prostaglandin E1 (an adenylate cyclase activator), both inhibited platelet aggregation, thromboxane A2 formation, and platelet factor 4 release in a concentration-dependent manner. In addition, both agents suppressed intracellular Ca++ elevation induced by thrombin. However, two classes of GP IIb/IIIa antagonists, abciximab (Fab fragment of antibody) and tirofiban (a synthetic compound), showed no inhibitory effects against thromboxane A2 formation and platelet factor 4 release, although these drugs inhibited platelet aggregation. Essentially the same results were obtained in platelet-rich plasma stimulated with high concentration (100 microM) of thrombin receptor activating peptide. In contrast to these different profiles on thromboxane A2 formation and release reaction, both cAMP-elevating agents and GP IIb/IIIa antagonists potently suppressed procoagulant activity in thrombin-stimulated platelets. These results suggest that the development of platelet procoagulant activity induced by thrombin is exclusively dependent on platelet aggregation or aggregation-dependent processes. These observations also indicate that cAMP-elevating agents possess wider inhibitory effects on platelet responses evoked by strong agonists than GP IIb/IIIa antagonists.     

Production and characterization of monoclonal antibodies against rat platelet GPIIb/IIIa

Four murine monoclonal antibodies against rat platelets were produced by fusion of spleen cells from mice intravenously immunized with whole rat platelets. All four antibodies immunoprecipitated two major platelet membrane proteins with apparent molecular weights of 130,000 and 82,000 (nonreduced) and of 120,000 and 98,000 (reduced), which were structurally analogous to human glycoprotein (GP) IIb/IIIa, i.e. rat GPIIb/IIIa. Two of four antibodies, named P9 and P55, strongly inhibited adenosine diphosphate (ADP)-induced aggregation of washed rat platelets and caused 50% inhibition of human fibrinogen binding to ADP-stimulated rat platelets, suggesting that rat GPIIb/IIIa serves as a fibrinogen receptor in ADP-induced aggregation. In contrast, two other antibodies, named P14 and P34, themselves caused aggregation of rat platelets in platelet-rich plasma (PRP) and the secretion of ¹⁴C-serotonin from ¹⁴C-serotonin-labeled PRP. These results indicate that rat GPIIb/IIIa plays an important role in platelet aggregation.     

Selective inhibition of the platelet phosphoinositide 3-kinase p110beta as promising new strategy for platelet protection during extracorporeal circulation

Extracorporeal circulation (ECC) is used in cardiac surgery for cardiopulmonary bypass as well as in ventricular assist devices and for extracorporeal membrane oxygenation. Blood contact with the artificial surface and shear stress of ECC activates platelets and leukocytes resulting in a coagulopathy and proinflammatory events. Blockers of the platelet glycoprotein (GP) IIb/IIIa (CD41/CD61) can protect platelet function during ECC, a phenomenon called "platelet anaesthesia", but may be involved in post-ECC bleeding. We hypothesized that the new selective phosphoinositide 3-kinase p110beta inhibitor TGX-221 that inhibits shear-induced platelet activation without prolonging the bleeding time in vivo may also protect platelet function during ECC. Heparinized blood of healthy volunteers (n = 6) was treated in vitro with either the GP IIb/IIIa blocker tirofiban, TGX-221 or as control and circulated in an ECC model. Before and after 30 minutes circulation CD41 expression on the ECC-tubing as measure for platelet-ECC binding and generation of the platelet activation marker beta-thromboglobulin were determined using ELISA. Platelet aggregation and platelet-granulocyte binding were analysed in flow cytometry. After log-transforming the data statistical evaluation was performed using multifactor ANOVA in combination with Tukey's HSD test (global alpha = 5%). Tirofiban and TGX-221 inhibited platelet-ECC interaction, platelet aggregation and platelet-granulocyte binding. Tirofiban also inhibited ECC-induced beta-thromboglobulin release. The observed inhibition of platelet-ECC interaction and platelet activation by tirofiban contributes to explain the mechanism of "platelet anaesthesia". TGX-221 represents a promising alternative to GP IIb/IIIa blockade and should be further investigated for use during ECC in vivo.     

Intrinsic activating properties of GP IIb/IIIa blockers

Potential intrinsic activating properties are probably the most controversially discussed issues with respect to GP IIb/IIIa blockers, especially since clinical trials with oral GP IIb/IIIa blockers revealed disappointing results. Based on the finding that currently clinically used GP IIb/IIIa blockers are ligand mimetics, experimental data are discussed, demonstrating an intrinsic activating effect of ligand mimetic GP IIb/IIIa blockers that potentially results in fibrinogen binding to alpha(IIb)beta(3) and in platelet aggregation. Furthermore, the inhibitory effect of aspirin on GP IIb/IIIa blocker-induced platelet aggregation is discussed as a clinically relevant finding. Finally, the potential association of GP IIb/IIIa blocker-induced thrombocytopenia with platelet activation is described.     

Differential inhibitory effects of platelet glycoprotein IIb/IIIa antagonists on aggregation induced by procoagulant agonists

INTRODUCTION: In addition to mediating the final common pathway of aggregation, the glycoprotein (GP) IIb/IIIa receptor participates in the activation of coagulation on the platelet surface. High-affinity conformation of GP IIb/IIIa in response to collagen-induced inside-out signalling seems to be mediated by GP VI(-FcRgamma) and reinforced by release of soluble mediators. METHODS: We assessed the effects of the three currently available GP IIb/IIIa antagonists--abciximab, tirofiban and eptifibatide--on platelet aggregation induced by various procoagulant and GP VI-related agonists, i.e. collagen-related peptide (CRP), convulxin and collagen fibrils, in PPACK-anticoagulated platelet-rich plasma. RESULTS: At concentrations that equally inhibited 80% of ADP-induced maximal aggregation abciximab-inhibited GP VI-mediated platelet responses to CRP or convulxin significantly more than the low-molecular-weight antagonists (CRP: abciximab 75+/-18%, tirofiban 41+/-7% and eptifibatide 41+/-6%; convulxin: abciximab 90+/-6%, tirofiban 64+/-20%, eptifibatide 61+/-14%, p<0.01 for all). In contrast, aggregation induced by collagen was equally abolished with all antagonists under the similar conditions. During CRP- or convulxin-triggered platelet activation, inhibition of fibrin polymerisation with GPRP potentiated the antiaggregatory effects of tirofiban and eptifibatide to reach that of abciximab. GPRP as such did not affect platelet aggregation. CONCLUSIONS: GP IIb/IIIa antagonists exhibit distinct inhibition profiles in platelet aggregation, depending on fibrin polymerization and calcium. Specifically, the ability of procoagulant platelet agonists to expose pre-activated and ligand-bound GP IIb/IIIa from the internal pool seems important.     

CD32-dependent platelet activation by a drug-dependent antibody to glycoprotein IIb/IIIa antagonists

Thrombocytopenia is observed with a frequency of up to 2% in patients treated with glycoprotein (GP) IIb/IIIa antagonists. We recently provided evidence that thrombocytopenia is caused by antibody binding to drug-induced conformational changes in GP IIb/IIIa. Here, we report that a murine monoclonal antibody binds to GP IIb/IIIa in an antagonist-dependent manner and activates platelets. Platelet stimulation is associated with a disruption of the phospholipid asymmetry, resulting in the assembly of catalytic active intrinsic Xase and prothrombinase complexes. Further mechanistic studies revealed that this response is (I) mediated in cis, (II) not associated with the formation of prothrombotic microparticles, and (III) requires intact platelet signaling and (IV) is blocked by increases in cAMP. The prothrombotic response is not observed using F(ab')2 fragments and is blocked by incubation of platelets with neutralizing antibodies to the platelet FcgammaRIIa receptor (CD 32).Taken together, these observations suggest that GPIIb/IIIa antagonist-dependent antibody binding to the platelet fibrinogen receptor has the propensity to lead to CD32-mediated platelet activation and accelerated platelet clearance, leading to thrombocytopenia.     

Heparin potentiation of collagen-induced platelet aggregation is related to the GPIIb/GPIIIa receptor and not to the GPIb receptor, as tested by whole blood aggregometry.

To determine whether heparin potentiation of platelet aggregation is related to platelet GP IIb/IIIa and GP Ib receptors, four series of experiments were performed on blood from normal volunteers. In the first experiment pretreatment with the monoclonal antibody 7E3 (MAb 7E3), which antagonizes at the GP IIb/IIIa receptor, potently inhibited the collagen-induced platelet aggregation (p less than 0.001). With heparin added to blood pretreated with MAb 7E3, the aggregation increased (p less than 0.005) to an extent similar to that when only saline was used for pretreatment. In the second experiment, monoclonal antibody 10E5 (MAb 10E5) and peptide RGDS, substances which also antagonize at the GP IIb/IIIa receptor, decreased collagen-induced platelet aggregation to an extent similar to that after pretreatment with MAb 7E3. Following pretreatment with RGDS, heparin increased platelet aggregation (p less than 0.03), while after pretreatment with antibody MAb 10E5 heparin did not enhance platelet aggregation. In the third experiment aurin, an inhibitor of von Willebrand factor and its interaction with the platelet GPIb receptor, decreased platelet aggregation dose-dependently. In the fourth experiment heparin enhanced platelet aggregation to a similar extent (p less than 0.005), regardless of pretreatment of the blood with saline, aurin or monoclonal antibody 6D1 (MAb 6D1), the latter an antagonist at the GP Ib receptor. In conclusion, the potentiation of collagen-induced platelet aggregation by heparin was not inhibited by MAb 7E3, RGDS, aurin or MAb 6D1, but was abolished by MAb 10E5, implying that the heparin effect is related to activation of the platelet GP IIb/IIIa receptor complex.     

Regulation of clot retraction by glycoprotein IIb/IIIa antagonists

Binding of fibrinogen to platelet glycoprotein (GP) IIb/IIIa induces clot retraction. Significant differences among GP IIb/IIIa antagonists were previously noted to inhibit thromboelastography in whole blood specimens. The relationship between efficacy of these agents and inhibition of clot retraction is unclear. Here, we use a plasma-free clot retraction assay to evaluate potency of GP IIb/IIIa antagonists to inhibit clot retraction and modulate platelet signaling, and to address whether these effects are realized in the clinically relevant dose range. The potencies for inhibition of clot retraction and aggregation are similar for antagonists with high affinity for resting platelets and slow off-rates, whereas lower affinity and fast off-rate antagonists are disproportionately less effective in blocking clot retraction. A positive correlation is observed between inhibition of clot retraction and inhibition of tyrosine dephosphorylation across a number of GP IIb/IIIa antagonist pharmacophores. For lower affinity and fast off-rate antagonists, the concentrations required for inhibition of clot retraction clearly exceed the clinical dose range. Site occupancy studies combined with clot retraction experiments addressed whether high affinity and slow off-rate compounds can alter clot retraction during the dosing interval. Binding studies using [3H] Roxifiban, a high affinity GP IIb/IIIa antagonist, indicate that occupancy of >95% of GP IIb/IIIa sites is required to inhibit clot retraction. This level of occupancy is not routinely achieved in the clinic and is not tolerated, at least for chronic therapy. These results suggest that inhibition of clot retraction is not necessary for efficacy of GP IIb/IIIa antagonists.     

Platelet spontaneous aggregation in platelet-rich plasma is increased in habitual smokers

Cigarette smoking is a well-known risk factor for atherosclerotic disorders. Several authors have suggested that platelet aggregability is important in smoking-induced vascular injury. When platelet-rich plasma is stirred at 37°C in the absence of chemical stimulants, small aggregates of platelets may be formed, but it was difficult to detect small aggregates by conventional aggregometer using optical density. Recent technological advances have made it possible to detect small aggregates by using a newly developed assay system that employs laser light scattering. In the present study, we attempted to measure platelet aggregation by this method, using laser light scattering in 54 nonsmoking healthy males and 51 healthy male habitual smokers who were age matched. In smokers, blood was obtained after 10 hours of smoking abstinence. No significant difference in platelet aggregation was induced by 1 μM or 5 μM of ADP between smokers and nonsmokers. In smokers, plasma fibrinogen levels and the number of small aggregates formed in the absence of chemical stimulants was significantly higher than in nonsmokers. Small aggregates formed in the absence of stimulants correlated positively with the concentrations of von Willebrand factor (vWF) antigen (r=0.2654, p<0.01) and of fibrinogen (r=0.2834, p<0.01). The formation of these small aggregates was inhibited by monoclonal antibody against GPIIb/IIIa blocking fibrinogen binding to GPIIb/IIIa but not inhibited at all by monoclonal antibody against GPIb blocking vWF binding to GPIb. From these results, enhanced platelet aggregability in smokers was confirmed, and it was suggested that GPIIb/IIIa is concerned in platelet spontaneous aggregation, although vWF may not directly influence on the platelet spontaneous aggregation. Since the mechanism of spontaneous aggregation and the effect of increased spontaneous aggregability on the progression of atherosclerosis remains unclear, further study was considered necessary.     

The state of platelets preserved in extracorporeal circulation with a glycoprotein IIb/IIIa inhibitor

INTRODUCTION: Temporary inhibition of platelet function during extracorporeal circulation (platelet anesthesia) can preserve platelet count. We hypothesized that platelet anesthesia with a glycoprotein IIb/IIIa inhibitor could preserve activated platelets. MATERIALS AND METHODS: Fresh human blood from donors was recirculated for 120 min in a simulated extracorporeal circuit. Heparin and FK633, a short-acting platelet glycoprotein IIb/IIIa inhibitor, were added to recirculated blood in one group (group F, n=5) whereas only heparin was used in controls (group C, n=5). Blood samples were obtained from the donors, and at 0, 5, 15, 30, 60, and 120 min of recirculation. Platelet counts, beta-thromboglobulin, thrombin-antithrombin complex, and aggregation to adenosine diphosphate were measured. Flow cytometry was performed for measurement of fibrinogen binding, platelet surface expression of P-selectin, and microparticles. RESULTS AND CONCLUSIONS: In the FK633 group, platelet counts were preserved and beta-thromboglobulin levels remained unchanged, whereas in group C, platelet counts decreased significantly and beta-thromboglobulin increased significantly from 30 and 60 min, respectively. FK633 inhibited platelet aggregation and fibrinogen binding to platelets throughout recirculation. A significant difference between groups with respect to microparticle parameters and thrombin-antithrombin complex levels was evident by 120 min. P-selectin expression increased at 0 min in both groups, and was preserved significantly at 5 min and reduced at 120 min in group F. Platelet counts were preserved by platelet anesthesia during recirculation without platelet activation. These results suggest that FK633 inhibits the amplification loop by reducing the binding of fibrinogen to glycoprotein IIb/IIIa and platelet aggregation.     

Glycoprotein IIb/IIIa inhibition enhances platelet nitric oxide release

INTRODUCTION: Platelet aggregates form by fibrinogen binding to the membrane receptor glycoprotein IIb/IIIa (GPIIb/IIIa). While GPIIb/IIIa inhibitors block fibrinogen-platelet binding, stimulation of other functionally important platelet receptors may still occur. Blocking the GPIIb/IIIa receptor prevents platelet aggregation but not activation and the subsequent effect on other platelet pathways is largely unknown. MATERIALS AND METHODS: As activated platelets release reactive oxygen species that may influence thrombosis or vascular function, the effect of GPIIb/IIIa inhibitors on the platelet release of nitric oxide (NO) and superoxide was determined using an electrochemical detector and luminescence, respectively. Location of relevant platelet proteins and the interaction between platelets and leukocytes in the presence or absence of GPIIb/IIIa inhibition was determined. RESULTS: Although incubation with GPIIb/IIIa inhibitors completely abolished platelet aggregation, stimulation dependent NO release was significantly enhanced. Superoxide is known to alter the bioavailability of NO, and its contribution to the GPIIb/IIIa dependent increase in NO release was determined. In the presence of GPIIb/IIIa inhibitors, platelet superoxide release was significantly decreased. Preincubation with GPIIb/IIIa inhibitors also modified aggregation induced membrane translocation of the platelet proteins, endothelial NO synthase (eNOS) and NADPH oxidase (p67phox and p47phox), known to contribute to the generation of NO and superoxide, respectively. In the presence of leukocytes, abciximab incubation led to enhanced NO release and attenuated superoxide generation. CONCLUSION: These observations suggest that the pharmacological effects of GPIIb/IIIa antagonists on platelet function, apart from inhibition of aggregation, may contribute to their efficacy.     

Platelet anaesthesia during extracorporeal circulation: differential effects of GP IIb/IIIa blockers on platelet activation marker P-selectin expression at hypothermia

INTRODUCTION: Blood contact with artificial surfaces of extracorporeal circulation (ECC) and hypothermia as applied in cardiac surgery cause platelet dysfunction possibly followed by bleeding complications. "Platelet anaesthesia" is a pharmacological strategy to protect platelets against ECC-induced damage using a GP IIb/IIIa blocker, which should be short acting to achieve maximal therapy control thereby avoiding post-ECC haemorrhage. However, GP IIb/IIIa blockers can paradoxically induce platelet activation, which may limit their efficiency as anti-platelet drugs. This in-vitro study investigated potentially platelet-activating effects of short-acting GP IIb/IIIa blockers during normothermic and hypothermic ECC. MATERIALS AND METHODS: Control (untreated) and treated (using either FK633 [half-life: 0.52 h], tirofiban [half-life: 1.5-2 h], or eptifibatide [half-life: 1.5 h]) heparinized blood was circulated in an ECC-model at normothermia (37 degrees C) and hypothermia (18 degrees C). Percentages of platelet aggregates and P-selectin-expressing (activated) platelets, platelet-counts and Thrombin-Antithrombin (TAT) complex formation were determined before (baseline) and after ECC. Statistical analysis was performed using multifactorial ANOVA after log-transforming the data. RESULTS: GP IIb/IIIa blockade inhibited ECC-induced platelet aggregation and platelet loss and decreased P-selectin expression at normothermia. During hypothermic ECC P-selectin was decreased by tirofiban but augmented by FK633 and eptifibatide. TAT formation was only decreased by FK633. CONCLUSIONS: Especially regarding its ultra-short half-life FK633 has the best properties for platelet protection during normothermic ECC. However, at hypothermia FK633 and eptifibatide induce platelet activation. In relation with "platelet anaesthesia" possible hypothermia-associated prothrombotic side effects of GP IIb/IIIa blockers should be considered.     

Cooperative effect of GNB3 825C>T and GPIIIa PI(A) polymorphisms in enhanced platelet aggregation

Introduction: Platelet aggregation contributes to various thrombembolic disorders. Environmental factors affect platelet aggregability but only partially explain the interindividual variability in aggregation. While the platelet glycoprotein IIb/IIIa is involved in the pathogenesis of acute coronary syndromes whereas most platelet activating stimuli act via G Protein coupled receptors we investigated whether the 825C>T polymorphism of the gene GNB3 encoding the G protein β3 subunit together with the platelet glycoprotein (GP) IIIa Pl(A) polymorphism are predictive of platelet aggregability on stimulation with various agonists acting via GPCRs. Materials and methods: Platelet aggregation was measured by turbidometry in 150 non-smoking individuals aged 18–40 years at a density of 2×10⁵ platelets/μl with various agonists according to the method of Born. Genotypes of the GNB3 825C>T and glycoprotein IIb/IIIa PI(A) polymorphisms were determined using Pyrosequencing technology and restriction analysis. All functional studies were completed within 3 h. The data were analysed by Student's t-test for paired data. Results: Low concentrations of agonists resulted in enhanced platelet aggregation in subjects with the GNB3 CC-genotype compared to carriers of a 825T-allele. This effect was further enhanced in carriers of the GPIIIa Pl(A2) allele (2 μM ADP: 42% vs. 19%, p=0.017; 1 μM U-46619: 51% vs. 30%, p=0.03; 5 μM epinephrine: 69% vs. 53%, p=0.025). No significant pattern of aggregation was observed on stratification by GPIIIa genotypes alone. Conclusions: Our findings indicate that two genetic markers contribute synergistically to increased platelet aggregation. This will help to identify patients at increased risk for thrombosis.     

A monoclonal antibody to the human platelet glycoprotein IIb/IIIa complex induces platelet activation

The platelet glycoprotein (GP) IIb/IIIa complex functions as the receptor for fibrinogen on activated platelets. The effects of two anti-GPIIb/IIIa monoclonal antibodies on platelet function were studied. These antibodies, 6C9 and C17, recognized different epitopes, which were exclusively present on the undissociated GPIIb/IIIa complex. Whereas C17 inhibited the binding of fibrinogen to platelets and platelet aggregation induced by adenosine diphosphate (ADP) or collagen, 6C9 caused irreversible aggregation of platelets, both in the presence and absence of extracellular fibrinogen. When incubated with unstirred (non-aggregating) platelets, 6C9 induced release of alpha and dense granule-constituents as well as binding of 125I-fibrinogen to platelets. The latter was evidently mediated in part by platelet-derived ADP, since it was inhibited to a large extent by apyrase, the ADP-hydrolyzing enzyme. F(ab')2 fragments of 6C9 did not induce platelet-release reactions but caused (slow) aggregation of platelets in the presence of extracellular fibrinogen. These results indicate that binding of an antibody to a specific site on the platelet GPIIb/IIIa complex may cause fibrinogen-mediated aggregation. The Fc part of the platelet-bound antibody appears to be involved in the induction of platelet release.     

A variant of Glanzmann's thrombasthenia characterized by abnormal glycoprotein IIb/IIIa complex formation

Glanzmann's thrombasthenia is a congenital bleeding abnormality characterized by absent platelet aggregation due to the failure of fibrinogen to bind to activated thrombasthenic platelets. In the majority of cases, this defect is caused by the absence or marked reduction of a specific fibrinogen-binding aggregation receptor, the GP IIb/IIIa complex. E.T., an 18-year-old female with a life-long history of bleeding and easy bruising, had the normal clinical features of Glanzmann's thrombasthenia. Surprisingly, sodium dodecyl sulphate-polyacrylamide gel electrophoresis of her platelets showed no apparent abnormality of the GP IIb/IIIa complex. Control platelets washed in the presence of 2 mM EDTA and control and patient platelets washed in the presence of 2 mM calcium ions showed normal reactivity with anti-GP IIb, anti-GP IIIa, and anti-GP IIb/IIIa complex specific monoclonal antibodies as evaluated by flow cytometry. In contrast, patient's platelets washed in the presence of 2 mM EDTA reacted with anti-GP IIb, anti-GP IIIa, but not with the complex-specific monoclonal antibodies. The increased susceptibility of the patient's GP IIb/IIIa complex to EDTA dissociation was confirmed by crossed immunoelectrophoresis (CIE). CIE analysis further indicated that the patient's GP IIb/IIIa complex did not bind fibrinogen. The combined results suggest that this patient has Glanzmann's thrombasthenia due to an abnormal association of the GP IIb/IIIa complex which results in the failure of the complex to bind fibrinogen.     

Glycoprotein Ib has a partial role in platelet-von Willebrand factor collagen interaction

The adhesion of human fixed washed platelets (FWP) to collagen was decreased after treatment with Serratia marcescens protease (SP), which removed 95% of the glycocalicin from platelet membrane glycoprotein (GP) Ib. However, the diminished adhesion of SP treated FWP to collagen could still be increased in the presence of purified von Willebrand factor (vWF). This ability to vWF to increase FWP adhesion to collagen is defined as collagen cofactor (CCo). The adhesion of FWP to collagen was not affected by a monoclonal antibody (MAb) to GP IIb/IIIa (10E5), that inhibits ADP and collagen induced platelet aggregation. On the other hand, it was decreased by 50% by a MAb to GP Ib (6D1), that inhibits ristocetin induced platelet aggregation. Adhesion of FWP in buffer to collagen was completely inhibited by Ricinus communis agglutinin I or concanavalin A, while Lens culinalis agglutinin and wheat germ agglutinin showed 50% inhibition. The FWP adhesion to collagen in the presence of vWF (normal plasma) was unaffected by MAbs to GP IIb/IIIa (10E5, P2, HPL1) but was decreased to 32-38% by MAbs to GP Ib (6D1, AN51, HPL11). A MAb to vWF (CLB-RAg 35), that inhibits ristocetin induced binding of vWF to platelets, decreased the CCo of normal plasma by 70%. The MAb, CLB-RAg 201, that inhibits the binding of vWF to collagen, completely inhibited the CCo of normal plasma.(ABSTRACT TRUNCATED AT 250 WORDS)